500 MILLION PARTS FROM 12000 MANUFACTURERS

Part | Manufacturer | Description | Samples | Ordering |

Catalog Datasheet | MFG & Type | Document Tags |

Abstract: as an offline ac/dc adapter. Figure 1 shows a typical SEPIC topology for a buck-boost converter with , 2008 Submit Documentation Feedback USB Charger Solution Using the TPS40210 TPS40210 SEPIC Converter 1 , . Using a coupled inductor requires less space on the printed circuit board (PCB) and tends to be lower , December 2008 Submit Documentation Feedback USB Charger Solution Using the TPS40210 TPS40210 SEPIC Converter , ) The SEPIC capacitor must be rated for a large RMS current relative to the output power. This property ... | Texas Instruments Original |
9 pages, |
160KHZ LM358 audio filter LM358 internal block diagram circuit diagram lm358 LM358 SK24 3.5mm audio jack isolated switch SLVA313 tps4021 dc dc sepic 5 v converter BSH107 lm358 800 SK24 equivalent sepic isolated sepic converter tps40210 charger on LM358 RMS TO DC converter using LM358 TPS40210 TEXT |

Abstract: .190 1997 4-165 4 Application Note 15 Micrel 6V24V to 3.3V/0.5A Buck Converter Through Hole 8V24V to 5V/0.5A Buck Converter Through Hole L1 3 6V to 24V SHDN SW , /0.5A Buck Converter Note 1 Through Hole 8V40V to 5V/0.5A Buck Converter Note 1 Through Hole , 15 Micrel 16V40V to 12V/0.5A Buck Converter Note 1 Through Hole 3 16V to 40V 5 C1 , 0.4 0.6 0.8 LOAD CURRENT (A) 4 1.0 8V24V to 5V/1A Buck Converter Through Hole L1 SW ... | Micrel Semiconductor Original |
28 pages, |
MIC4574 MIC4575 MIC4576 UPL1V470MEH ME 9435 motorola MIC4576BT inductor 100uH 3A SANYO 1000uF 16V CA general instruments 24V DC to 5V 1A DC flyback converter electric capacitor 330uF 25V LM3420 1000uF 16v ir sensing circuit using LM358 Diode sb160 Lithium Ion Cells 12V DC DC 3A charger lm358 sum RMS TO DC converter using LM358 lm358 li ion charger circuit TEXT |

Abstract: AND8079/D AND8079/D A Low Cost DDR Memory Power Supply Using the NCP1571 NCP1571 Synchronous Buck Converter and a LM358 Based Linear Voltage Regulator http://onsemi.com APPLICATION NOTE Prepared by: Jim , /NCP1571 /NCP1571 low voltage synchronous buck converter. The reference design created to evaluate the system uses , ) that also tracks Vdd/2. A low voltage synchronous buck converter is used to create an 8.0 A output at , parallel standby power supply in addition to the main power supplied by the buck converter. Standby ... | ON Semiconductor Original |
20 pages, |
LM358 lm358 frequency duty cycle MC33375 MTB1306 NCP1570 NCP1571 NTD4302 DO3316P-102HC RMS TO DC converter using LM358 AND8079/D TEXT |

Abstract: AND8079/D AND8079/D A Low Cost DDR Memory Power Supply Using the NCP1571 NCP1571 Synchronous Buck Converter and a LM358 Based Linear Voltage Regulator http://onsemi.com APPLICATION NOTE Prepared by: Jim , /NCP1571 /NCP1571 low voltage synchronous buck converter. The reference design created to evaluate the system uses , ) that also tracks Vdd/2. A low voltage synchronous buck converter is used to create an 8.0 A output at , parallel standby power supply in addition to the main power supplied by the buck converter. Standby ... | ON Semiconductor Original |
20 pages, |
NTD4302 NCP1571 NCP1570 MTB1306 MC33375 lm358 CHARGE CONTROLLER LM358 LM358 output drive circuits RMS TO DC converter using LM358 AND8079/D TEXT |

Abstract: RMS current through the input capacitor, referred to the output current (Iout), for various phase , coil of 0.1 Iout. For equal to a half period (180 degrees of phase delay) the RMS current is , /50V ROE with an ESR = 85m. Using the multiphase application with a phase delay, , equal to half , possible to maintain high efficiency values using low cost and size capacitor. Figure 12. P% P , flowing through the input capacitors is maximum and is given by Io/2 . So the RMS current to be sustained ... | STMicroelectronics Original |
16 pages, |
DIODO 10a SO20L diodo zener 5.1 diodo smd 1a PWM LM358 DIODO 55 SMD capacitor 470uf 50v diodo zener 12v diodo zener j3 diodo zener 5v diodo c12 ST ROE eke capacitor lm358 sum AN1126 L4973 lm358 dt smd AN1126 L4973 ROE capacitor AN1126 L4973 diodo smd AN1126 L4973 RMS TO DC converter using LM358 AN1126 L4973 L497X AN1126 L4973 diodo zener c12 AN1126 L4973 AN1126 AN1126 L4973 L4973 TEXT |

Abstract: . 190 1997 4-165 Application Note 15 Micrel 6V-24V to 3.3V/0.5A Buck Converter Through Hole L1 SHDN 6V to 24V C1 SW 8V-24V to 5V/0.5A Buck Converter Through Hole & MIC4574-3 MIC4574-3.3BN V , 6V-40V to 3.3V/0.5A Buck Converter Note 1 Through Hole L1 3.3V/0.5A 8V-40V to 5V/0.5A Buck Converter , Application Note 15 Micrei 16V-40V to 12V/0.5A Buck Converter Through Hole 1 6V-40V to 3.3V/1A , 6V-24V to 3.3V/1A Buck Converter Through-Hole 8V-24V to 5V/1A Buck Converter Through Hole SHDN BV to ... | OCR Scan |
28 pages, |
35CV150GX battery charger schematic 24V PL52B-68-500 charger on LM358 Lithium Ion Cells 12V DC DC 3A LM041 1n414b diode uses lm358 sum low esr panasonic fj RMS TO DC converter using LM358 sb360 equivalent schematic apple 4 battery JF SS34 motorola 1N4148 TEXT |

Abstract: using a second DC/DC converter to regulate the current. This is entirely unnecessary. A single stage , component due to the load. An estimate may be calculated using Equation 10. I RMS ( COUT ) 3 (EQ , to deliver power from the AC mains with near unity power factor while using off-the-shelf constant , must reduce to zero during a portion of the switching cycle, i.e., the converter must operate in , 1000mA of DC current at 3V to 4V to provide up to 175 lumens of light output1. A typical high pressure ... | Intersil Original |
13 pages, |
ISL6745 metal halide electronic ballast circuit dc dc sepic 5V converter PME271M622KR30 Ametherm lm358 sum 150W hid ballast sylvania lamp HID High Voltage Driver IC for HID Lamps ECQU2A104ML 1 watt led OSRAM WHITE 100 LUMEN schematic hid sodium lamp ballast ISL6745 Application Notes schematic hid lamp ballast schematic 150W lamp ballast Osram Ballast schematics RMS TO DC converter using LM358 IRF420A TEXT |

Abstract: protection circuitry. Compared to a discrete MOSFET and controller or RCC (Ringing Choke Converter , pin is designed to directly drive the converter transformer and is capable of switching a minimum of , inside the IC in order to get the effect of eliminating Rstart, which caused a loss in the systems using , charger. Each application has secondary circuits to ensure constant voltage and constant 1. Using the , (Typ) TO-92 Type, LM431 LM431 KA358 KA358 (LM358) KA358 KA358 (LM358) 1 Dual operational amplifier 8 ... | Fairchild Semiconductor Original |
16 pages, |
817a AN-4111 KA431 application KA431 817a opto coupler transistor ka431 L 1n5822 trr FSDH0165 KA4312 AN4111 Tr 2n3904 transistor ka431 RCC Ringing Choke Converter transistor ka431az Ringing Choke Converter comparator circuit using op-amp lm 358 opto coupler 817 ic lm358 inverter block diagram dh0165 8 pin ic DH0165 TEXT |

Abstract: SC1167 SC1167 Programmable Synchronous DC/DC Converter, Dual LDO Controller POWER MANAGEMENT , two low-dropout linear regulators providing most of the circuitry necessary to implement three DC/DC , application areas. The integrated D/A converter provides programmability of output voltage from 2.0V to 3.5V in 100mV increments and 1.30V to 2.05V in 50mV increments with no external components , features an integrated 5 bit D/A converter, latched drive output for enhanced noise immunity, pulse by ... | Semtech Original |
14 pages, |
Si4410 SC1167 LM358 IRLR024N IRL2203 block schematic of LM358 TEXT |

Abstract: SC1166 SC1166 Programmable Synchronous DC/DC Converter, Dual LDO Controller POWER MANAGEMENT , two low-dropout linear regulators providing most of the circuitry necessary to implement three DC/ DC converters for powering advanced microprocessors such as Pentium® II . The SC1166 SC1166 switching , application areas. The integrated D/A converter provides programmability of output voltage from 2.0V to 3.5V , , typical FET losses would be: Using 1.5X Room temp RDS(ON) to allow for temperature rise. FET type ... | Semtech Original |
14 pages, |
Si4410 SC1166CSW SC1166 IRLR3103 IRLR024N IRL2203 capacitor 2100 uf 25v with esr LM358 TEXT |

Abstract | Saved from | Date Saved | File Size | Type | Download |

Using the ADC0816 ADC0816 and ADC0817 ADC0817 8-Bit A/D Converter with On-Chip 16 Channel Multiplexer 388 Download Converter 148 Download Receive via Email LM108A LM108A AN-71 AN-71 Micropower Circuits Using the Reducing DC Errors in Op Amps (Addendum to AN241 AN241 & 242) 136 Download Receive via Email (Addendum to AN 211) 207 Download Receive via Email LM108 LM108 TP-15 TP-15 Reducing DC Errors in Email LF411 LF411 AN-637 AN-637 Realizing Trigonometric Functions with the Multifunction Converter LH0094 LH0094
/datasheets/files/national/htm/nsc00620.htm |
National | 13/08/1999 | 87.59 Kb | HTM | nsc00620.htm |

TP-15 TP-15 Reducing DC Errors in Op Amps (Addendum to AN241 AN241 & 242) 136 Download Receive via Email 28-Jun-1996 TP-14 TP-14 Low Voltage Techniques (Addendum to AN 211) 207 Download Receive via Email Email 04-Nov-1995 AN-258 AN-258 Data Acquisition Using the ADC0816 ADC0816 and ADC0817 ADC0817 8-Bit A/D Converter Precision AC/DC Converters 86 Download Receive via Email 28-Jun-1996 LB-21 LB-21 Email 28-Jun-1996 LB-25 LB-25 True rms Detector 66 Download Receive via Email
/datasheets/files/national/htm/nsc00621.htm |
National | 13/08/1999 | 40.67 Kb | HTM | nsc00621.htm |

28-Jun-1996 TP-15 TP-15 Reducing DC Errors in Op Amps (Addendum to AN241 AN241 & 242) 136 View Online Download Receive via Email 28-Jun-1996 TP-14 TP-14 Low Voltage Techniques (Addendum to AN 211 Email 04-Nov-1995 AN-258 AN-258 Data Acquisition Using the ADC0816 ADC0816 and ADC0817 ADC0817 8-Bit A/D Converter LB-8 Precision AC/DC Converters 86 View Online Download Receive via Email 28-Jun-1996 LB-25 LB-25 True rms Detector 66 View Online Download Receive via Email
/datasheets/files/national/htm/nsc01251.htm |
National | 28/06/2001 | 63.29 Kb | HTM | nsc01251.htm |

(See Application Note AN938 AN938). Using two L4973D L4973D is possible to deliver up to 7A with a good sharing Iout. For a equal to a half period (180 degrees of phase delay) the RMS current is approximately compared to the synchronous applica - tion. So it is possible to maintain high efficiency values using and is given by Io/2 . So the RMS current to be sustained is 3.5A. The two selected capacitor, FA In order to compensate a 40% reduction of inductance at full load due to the DC current level, it
/datasheets/files/stmicroelectronics/stonline/books/ascii/docs/6642-v1.htm |
STMicroelectronics | 25/05/2000 | 24.38 Kb | HTM | 6642-v1.htm |

Email 28-Jun-1996 TP-15 TP-15 Reducing DC Errors in Op Amps (Addendum to AN241 AN241 & 242) 136 View Frequency to Voltage Converters (and more) 413 View Online Download Receive via Email Online Download Receive via Email 03-Oct-2002 AN-C Application Note C V/F Converter ICs ppm) Linear Slope-Integrating A/D Converter 291 View Online Download Receive via Email Download Receive via Email 02-Oct-2002 AN-71 AN-71 Application Note 71 Micropower Circuits Using
/datasheets/files/national/generalpurpose__v1.html |
National | 25/09/2003 | 36.24 Kb | HTML | generalpurpose__v1.html |

Application Note AN938 AN938). Using two L4973D L4973D is possible to deliver up to 7A with a good sharing between the two For a equal to a half period (180 degrees of phase delay) the RMS current is approximately zero. I f compared to the synchronous applica - tion. So it is possible to maintain high efficiency values using low So the RMS current to be sustained is 3.5A. The two selected capacitor, FA 680 m F/50V F/50V Panasonic load due to the DC current level, it is nec essary to wire 34 turns, which correspond to 84 m H of
/datasheets/files/stmicroelectronics/stonline/books/ascii/docs/6642-v2.htm |
STMicroelectronics | 14/06/1999 | 22.5 Kb | HTM | 6642-v2.htm |

shows the RMS current through the input capacitor, referred to the outp ut current (Iout), for various through the coil of 0.1 V Iout. For a equal to a half period (180 degrees of phase delay) the RMS ROE with an ESR = 85m W . Using the multiphase application with a phase delay, a , equal to half possible to maintain high efficiency values using low cost and size capacitor. Conclusions To sum up in , using a half period of multiphase phase delay, gives the best benefit because the RMS current through
/datasheets/files/stmicroelectronics/stonline/books/ascii/docs/6642.htm |
STMicroelectronics | 20/10/2000 | 25.84 Kb | HTM | 6642.htm |

Email 28-Jun-1996 TP-15 TP-15 Reducing DC Errors in Op Amps (Addendum to AN241 AN241 & 242) 136 View Frequency to Voltage Converters (and more) 413 View Online Download Receive via Email Online Download Receive via Email 03-Oct-2002 AN-C Application Note C V/F Converter ICs ppm) Linear Slope-Integrating A/D Converter 291 View Online Download Receive via Email Download Receive via Email 02-Oct-2002 AN-71 AN-71 Application Note 71 Micropower Circuits Using
/datasheets/files/national/htm/nsc00305.htm |
National | 01/11/2002 | 62.61 Kb | HTM | nsc00305.htm |

TP-15 TP-15 Reducing DC Errors in Op Amps (Addendum to AN241 AN241 & 242) 136 View Online Download Receive via Email 28-Jun-1996 TP-14 TP-14 Low Voltage Techniques (Addendum to AN 211) 207 View Acquisition Using the ADC0816 ADC0816 and ADC0817 ADC0817 8-Bit A/D Converter with On-Chip 16 Channel Multiplexer 388 62 View Online Download Receive via Email 28-Jun-1996 LB-8 Precision AC/DC rms Detector 66 View Online Download Receive via Email 28-Jun-1996 LB-23 LB-23
/datasheets/files/national/htm/nsc01211-v3.htm |
National | 16/08/2002 | 63.43 Kb | HTM | nsc01211-v3.htm |

LF353 LF353 AN-258 AN-258 Data Acquisition Using the ADC0816 ADC0816 and ADC0817 ADC0817 8-Bit A/D Converter with On-Chip 16 Receive via Email LF356 LF356 AN-258 AN-258 Data Acquisition Using the ADC0816 ADC0816 and ADC0817 ADC0817 8-Bit A/D Converter with On-Chip 16 Channel Multiplexer 388 View Online Download Receive via Email LF356 LF356 AN-260 AN-260 Application Note 260 A 20-Bit (1 ppm) Linear Slope-Integrating A/D Converter 291 LF411 LF411 AN-637 AN-637 Realizing Trigonometric Functions with the Multifunction Converter LH0094 LH0094 136
/datasheets/files/national/htm/nsc00304.htm |
National | 01/11/2002 | 147.25 Kb | HTM | nsc00304.htm |